Cataractogenesis and molecular pathways, with reactive free oxygen species as a common pathway

Cataractogenesis and molecular pathways, with reactive free oxygen species as a common pathway

Slowing down or stopping the natural process of cataractogenesis is certainly a challenge for those who today propose an option other than surgery. Addressing the same problem in different ways constitutes a new approach to solving what is today the number one cause of reversible blindness worldwide...

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Veröffentlicht in:Survey of ophthalmology 2024-03, Vol.69 (2), p.224-229
1. Verfasser: Pacheco, Arturo Iván Pérez
Format: Artikel
Sprache:eng
Schlagworte:
Biochemistry
Cataractogenesis
Molecular biology
Reactive Oxygen Species
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Zusammenfassung:Slowing down or stopping the natural process of cataractogenesis is certainly a challenge for those who today propose an option other than surgery. Addressing the same problem in different ways constitutes a new approach to solving what is today the number one cause of reversible blindness worldwide. The technological revolution, as well as the advances in the biological sciences, allows us to conceive mechanisms never thought of before to stop the process that, as a common pathway, constitutes opacification of the crystalline lens. A new dawn for cataracts is coming through molecular, newly-discovered mechanisms. Cataractogenesis and molecular pathways have reactive free oxygen species as a common pathway. Surgical removal is today's gold standard, but perhaps not for much longer.
ISSN:0039-6257
1879-3304
DOI:10.1016/j.survophthal.2023.11.001